Adjustable counting relay system



Feb. 21, 1950 w. s. ccoK 2,498,249

ADJUSTABLE COUNTING RELAY SYSTEM I Filed April 19, 1941 3 Sheets-Sheet 1 INVENTOR MY/ara. 600K WITNESSES:

Feb. 21, 1950 w coo 2,498,249

ADJUSTABLE COUNTING RELAY SYSTEM Filed April 19, 1941 3 SheetsSheet 2 INVENTOR MY/ara 6, 600K.

WITNESSES:

Feb. 21, 1950 w. G. cooK ADJUSTABLE COUNTING RELAY sysma 3 Sheets-Sheet 3 Filed April 19, 1941 INVENTOR M //0r0 6 COOK ATTORN WITNESSES:

Patented Feb. 21, 1950 ADJUSTABLE COUNTING RELAY SYSTEM Willard G. Cook, Wilkinsburg, Pa., assignor to Westinghouse Electric Corporation, East Pittsburgh, Pa., a corporation of Pennsylvania Application April 19, 1941, Serial No. 389,346

16 Claims. (Cl. 175-320) My invention relates, generally, to control systems and, more particularly, to systems for controlling the operation of a device which may be utilized to act upon a length of moving material as it passes through or is acted upon by a work device.

In the manufacture of pipe, for example, it is necessary that the pipe be cut into the desired lengths as it is delivered continuously from the pipe mill, and it is necessary that any desired preselectable lengths be cut continuously and that the selected lengths be of uniform dimension.

An object of my invention is to provide a control system for a continuously operating cut-off saw which shall function to cause the saw to automatically cut any desired preselectable sections of a length of material as the material is continuously fed to the saw, which may be made to cut a test piece irom the length of material after any desired section has been cut, and which may be made to cut the material into short lengths in an emergency such as would make it undesirable to continue to out the material into the preselected lengths.

Another object of the invention is to provide a control system for a continuously operating cut-off saw which shall function to cause the speed of travel or the saw to be coordinated with the speed of a moving length of material which is to be cut by the saw and which may be adjusted to compensate for any inaccuracies in speed matching to more accurately coordinate the saw speed with the speed of the length of material.

A further object of the invention is to provide a control system for a device for operating upon a moving length of material which shall function to cause the device to automatically act upon the length of material at any desired preselectable, regular, successive lengths along the material, which may be made to act upon the material after any of the regular preselected lengths of material have been acted upon, and which may be made to act upon the material at shorter intervals than the preselected lengths in an emergency such as would make it undesirable to continue to act upon the material at the prese'ected lengths.

These and other objects and advantages of the invention will be apparent from the following detailed description taken in connection with the accompanying drawings, in which:

Figure l is a perspective view. partly broken away, of a continuously operable cut-off saw embodying certain of the control elements or the preferred embodiment of the invention; and

Figs. 2 and 3, interconnected as indicated, comprise a wiring diagram for a control system for a 5 cut-off saw such as that shown in Fig. l and embodying the principal features of the invention.

In practicing the invention, a saw 4 is disposed to act upon a moving length of material, such as a pipe 6, as it is continuously delivered from a pipe mill 8 which is driven by a motor 9. The saw 4 is mounted upon a carriage H] which may he reciprocated by a motor 12 through a linkage M. The effective radius of the linkage i l may be varied by a motor 6 to compensate for changes in the period of reciprocation of the saw which may be effected by control of the speed of the carriage drive motor 1 2, to thereby maintain equal saw and pipe speeds at all frequencies of reciprocation of the saw. A saw-operating solenoid it functions to cause a follower 2i) to engage a cam 22 during a portion of any desired forward motion of the saw carriage to cause the saw to can gage and out the pipe.

A control system for synchronizing and maintaining synchronism between speeds of the pipe 8 and the forward motion of the saw t and for selecting and automatically controlling the cut lengths of the pipe is shown in Figs. 2 and 3, joined together, as indicated by the interconnecting conductors, to form a single control diagram.

A differential speed-responsive regulator '24 functions to maintain the necessary speed relations between the mill motor 9 and the carriage drive motor l2. The effective radius of the linkage l4 may be adjusted by operating the radius adjusting motor IS in a forward or reverse direction by the selective actuation of manually operable circuit control devices 26, 28 and 30, or a manually actuable limit switch 32 and the circuit control device 30, as shown in Fig. 2.

The motion of the radius adjusting motor I6 is transmitted to the regulator 24 by means of a suitable motion transmitting device, such as a synchro-tie system, comprising synchro-tie units 3 3 and 36 connected through a synchro-tie unit 38. Manually operable circuit control devices 40 and 42 may be selectively actuated to control means for efiecting adjustments of the relative positions of the synchro-tie units 34 and 38 by varying the relative positions of the rotor and stator of the synchro-tie unit 38.

As shown in Fig. 3, a selector device M functions in cooperation with counting relays 46, 48, 56, 52, 54, 56 and 58, sequence relays 60, 62 and 3 64 and associated circuits, and a limit switch 66 driven by the carriage-drive motor I2 to energize a control relay 68 to energize the saw operating solenoid I8 at the desired multiples of reciprocations to produce the desired cut lengths of pipe.

A relay 10 controlled by a manually operable circuit control device 12 functions to cause the saw to make emergency cuts when desired, and the relays 14 and 16 function under the control of a circuit control device 18 to causethe saw to cut a test-piece immediately following the first out after the control device 18 is operated.

Considering the invention more in detail, the saw 4 is mounted for rotation upon a platform 80 which is pivotally mounted on the carriage I0, as shown in Fig. l. The saw 4 is driven by amotor 82, also mounted on the platform, by means of a drive belt 84. The platform 80 is biased by a spring member 86 which is connected to the carriage I by a supporting arm 88 to normally hold the saw out of engagement with the pipe 6.

The carriage I0 is supported by rollers 80 and 82 on a base member 84, and is held in position by roller members 86 and 98 which engage guide members I00 and I02. The carriage I0 is continuously reciprocated by the carriage motor I2 which drives the linkage I4. The linkage I4 comprises a crank I04 driven by the motor I2 which is connected by a pitman I06 to a lever I08 which is pivotally mounted on a fixed base IIO. A pitman II2 extends from the carriage I0 to a block 114 which has screw-threaded engagement with a rod 1 I6. The rod I I6 may be rotated to vary the position of the block II4 by means of the motor I6 through gear members H8 and The cam follower 20 is mounted upon a lever and I which are connected by a drive belt I12.

, The sun gear I66 is driven by the carriage motor I28 which has a suitable fixed pivotal mounting, and which may be actuated by the solenoid I8 through the link members I30 and I32 against the bias of a, spring member I33 to move the cam follower 20 into the path of the cam 22 which will cause the platform 80 to tilt downward as it is moved forward, and thereby cause the saw 4 to engage and cut the pipe 6. V

The control system for the carriage motor I2, the radius adjusting motor I6 and the cam actuating solenoid I8 is shown in Figs. 2 and 3, and

, comprises a motor or any other suitable drive means I34 which drives a main generator I36. The field winding I38 of the generator I36 is energized through a variable resistor I40 from any suitable source of direct-current powerv to which the conductors X and Y are connected. The armatures of the motors 9 and I2 are connected to be energized by the generator I36 in parallel circuit relation as indicated. The field winding I42 of the mill motor 9 is also energized in circuit with a variable resistor I44 from the conductors X and Y. The field winding I46 of the carriage motor I2 is connected to be energized by a continuously driven exciter I48 in circuit with a variable resistor I50. The field winding I52 of the exciter I 48 is connected to be energized from the conductors X and Y in circuit with a variable resistor I54.

The variable resistor I54 is connected to be actuated by the regulator 24 through a gear member I56 which is disposed to be actuated by a gear member I58, which in turn is responsive to the movement of the planet gears I60 and I62 when there is any differential between the speeds of the sun gears I64 and I66. The sun gear I64 is driven by the mill motor 8 through a changespeed mechanism comprising cone pulleys I66 I2 through a change-speed mechanism comprising cone pulleys I14 and I16 which are connected by a drive belt I18. The speed ratio between the cone pulleys I14 and I16 may be varied by a guide member I which controls the position of the belt I18 with respect to the pulleys I14 and I16, and'which may be actuated by a cam member I82 which actuates a cam follower I84 which is mechanically connected to actuate the guide member 180. The speed relation between the cone pulleys I68 and I10 may be varied by a guide member I85 which engages the belt I12 and which may be actuated, as desired, by a hand-operated lever I86.

The radius adjusting motor I6 may be selectively operated in a forward or a reverse direction by the energization of relays I81 and I88 which are controlled by the circuit control devices 28 and 26 and the selector switch 30 when the selector switch 80 is in the left-hand position, and alternatively by the limit switch 32 and the selector switch 30 when the selector switch 30 is in the right-hand position. The relay I81 energizes the motor I6 through a circuit which extends from the conductor Y through a conductor I80, the contact element I82 of the relay I81, conductors I84 and 186, the armature of the motor I6, a conductor I88, the contact element 200 of the relay I81, and a conductor 202 to the conductor X. The relay I 81 also connects the field winding of the motor I6 in a circuit which extends from the conductor Y through the field winding of the motor I6, a conductor 204, contact element 206 of the relay I81, and a conductor 208 to the conductor X.

When the relay I88 is energized, the armature 0! the motor I6 is energized with an opposite potential in a circuit which extends from the conductor Y through the conductors I80 and 2I0, contact element 2I2 of the relay I88, conductors 214 and I88, the armature of the motor' I6, conductor I96, and the contact element 216 of the relay I88 to the conductor X. When the relay I88 is energized, the field winding of the motor I6 is energized with the same potential as when the relay I81 is energized in a circuit which extends, from the conductor Y through the field winding of the motor I6, conductors 204' and 2I8, contact element 220 of the relay I88, and conductor 208 to the conductor X. The relay I88 is energized by the circuit control device 26 through a circuit which extends from the conductor Y through the conductors I80, 210 and 222, the winding of the relay I88, conductors 224 and 226, the contact element of the circuit control device 26, a conductor 228, the contact element 230 of the selector switch 30, and a conductor 232 to the conductor X.

The relay I81 is energized by the actuation of the circuit control device 28 through a circuit which extends from the conductor Y through the conductors I80, 210, 222 and 234, the winding of the relay I81, a conductor 236, the contact element of the circuit control device 28, conductor 228, the contact element 230, and the conductor 282 to the conductor X.

When the radius adjusting motor I6 is actuated, its movement is transmitted to the cam member I62 through the synchro-tie units 34 and 36. The synchro-tie units 34 and 36 comprise wound rotor induction machines which have their stators connected to a suitable source of three-phase power indicated by the conductors A, B and C. The rotor of the synchro-tie unit 34 is connected to the stator of the synchro-tie unit 38, which comprises a wound rotor induction machine similar to the units 34 and 36, by means of conductors 238, 248 and 242 connected to conductors 244'. 245 and 248. The rotors of the synchro-tie units 36 and 38 are connected by conductors 258, 252 and 254. A synchro-tie unit 256 has its stator connected to the conductors A, B and C, and its rotor winding connected to the conductors 244, 246 and 248, and, therefore, is moved in synchronism with the synchro-tie unit 34' which is driven by the radius adjusting motor l6. The synchro-tie unit 256 actuates an indicating dial 258 which is suitably calibrated in cut lengths and associated with an indicating pointer 266 and also actuates the limit switch 32.

The alternative system for operating the radius adjusting motor l6 by means of the limit switch 32 comprises a manually operable contact element 262 which may be actuated by a handwheel 264 in either direction to engage the associated contact elements of the limit switch which are actuated by the synchro-tie unit 256 as indicated. The handwheel 264 also actuates a calibrated dial 266 which is associated with an indicating pointer 268 and which may be calibrated in cut lengths similar to the dial 258. When the handwheel 264 is turned in a clockwise direction, it completes a circuit for the relay I88 which extends from the conductor Y through the conductors l 98, 2M and 222, the winding of the relay I88, conductor 224, contact element 210 of the selector switch 36, a conductor 212, the contact element 262, and

conductors 214 and 216 to the conductor X. The relay i88 will remain energized, and the motor IE will continue to rotate until the limit switch 32, which is driven by the sYnchro-tie unit 256, has disengaged its contact elements from the contact element 262.

In a similar manner, when the handwheel 264 is rotated in a counter-clockwise direction. the relay iii? will be energized in a circuit which extends irom the conductor Y through the conductors I86, 218, 222 and 234, the winding of the relay 181, the conductor 236. a conductor 218, contact element 286 of the selector switch 86, a conductor 282, the contact element 262, and the conductor 215 to the conductor X, and the motor i6 will rotate in the opposite direction to the extent determined by the setting of the handwheel 264.

The synchro-tie unit 38 constitutes a phaseshifting device for the purpose of making adjustments of the speed ratio adjusting cam I82 by rotating the rotor of the synchro-tie unit 38, and thus changing the phase relation between its windings and, therefore, the phase relation between the rotor windings of the synchro-tie units 34 and 36. The rotor of the synchro-tie unit 38 is connected to be actuated by a motor 284' which may be connected to be energized for rotation in a forward or a reverse direction by relays 286 and 288 which are under the control of circuit control devices 46 and 42, respectively.

When the circuit control device 40 is actuated, an energizing circuit for the relay 286 is completed, extending from the conductor X through conductors 288 and 28!, the contact element of the circuit control device 46, a conductor 292,

the Winding of the relay 286, and conductors 284 and 286 to the conductor Y.

When the relay 286 is actuated, a circuit for the armature of the motor 284, which extends from the conductor X through the conductors 290 and 288, contact element 386 of the relay 286,

conductors 382 and 864, the armature of the motor 284, a conductor 388, contact element 361 01 thereby 286, and conductors 388, 3") and 286 to the conductor Y is completed.

The energization of the relay 286 also completes a circuit for the field winding 3l2 of the motor 284 which extends from the conductor X through conductors 286, 3 and 3| 6, contact element 3|8 oi. the relay 286, a conductor 320, the field winding 3|2 of the motor 284, and conductor 286 to the conductor Y.

When the circuit control device 42 is actuated, the relay 288 is energized in a circuit which extends from the conductor X through conductors 286 and 32!, the contact element of the circuit control device 42, a conductor 322, the winding of the relay 288, andconductors 284 and 286 to the conductor Y.

The energization of the relay288 provides energization of the field winding of the motor 284 with the same polarity as that provided by the relay 286, and energization of the armature of the motor 284 with opposite polarity to that provided by the relay 286.

The field winding 3|2 of the motor 284 is energized by the relay 288 in a circuit which extends from the conductor X through the conductors 288 and 3, contact element 324 of the relay 288, conductors 326 and 328, the field winding 312 of the motor 284, and conductor 296 to the conductor Y.

The armature energizing circuit for the motor 284 which is completed by the relay 288 extends from the conductor X through the conductor 268, contact element 328 of the relay 288, conductors 33c and 386, the armature of the motor 264, conductors 384, 862 and 332, contact element 33 of the relay 28S, and conductors 318 and 286 to the conductor Y.

A magnetically released brake 336 is provided for holding the armature of the motor 284 in a fixed position when it is not energized. The brake 336 comprises a solenoid 33'! which is energized in parallel circuit relation with the armature of the motor 285, and is spring pressed by a spring member 338 in braking relation when the armature of the motor 284 is not energized.

The control system for actuating the solenoid It at the desired intervals, which comprises the relays 46, 48, 50, 52, 54, 56, 58, 68, 62 and 64, the limit switch 66, the relay 68, the selector switch 44 and their associated circuits, energizes the solenoid l8 through the actuation of the relay 68 in a circuit which extends from the conductor X through conductors 348 and 34E, the winding of the solenoid l3, a conductor 342, contact element 344 of the relay 68, and conductors 346 and 341 to the conductor Y. The circuit for the relay 68 is completed by the relays 46, 48, 50, 52, 54, 56 and 58 through their contact elements 350, 352, 354, 358, 358, 360 and 362, respectively, when one of these contact elements, which is associated with the circuit selected by the mov able selector contact element 384 of the selector switch 44, is actuated. When the selector contact element 364 is engaged with the contact element 366, the energization of the relay 48 will complete a circuit for the relay 68 which extends from the conductor X through conductors 348 and 368, the contact element 364, the contact element 366, conductors 363 and 316, the contact element358, conductors 312 and 348, the winding of the relay 68, and the conductor 341 to the conductor Y.

The circuit of the relay 68 will be completed by the relay 48 when the contact element 364- is in. engagement with the contact element 314 in a circuit which extends from the conductor .X through the conductors 346 and 366, contact elements 364 and 314, conductors 316 and 318, the contact element 352 of the relay 48, conductors 386, 312 and 346, the winding of the relay 66, and the conductor 341 to the conductor Y. When the contact element 364 is in engagement with the contact element 882, the contact element 354 of the relay 56 will complete the circuit for the relay 68 which extends from the conductor X through the conductors 346 and 368, contact elements 364 and 382, conductors 384 and 386, the contact element 354, conductors 388, 312 and 348, the, winding of the relay 66, and the conductor 341 to the conductor Y. A similar circuit may be completed by the relay 52 when the contact element 364 is in engagement with the contact element 396, extending from the conductor X through the conductors 346 and 368, contact elements 364 and 386, conductors 382 and 384, the contact element 356 of the relay 52, conductors 386, 312 and 348, the winding of the relay 66, and the conductor 341 to the conductor Y.

The circuit for the relay 68 completed by the relay 54 with the contact element 364 in the position shown in the drawings extends from the conductor X through conductors 346 and 368, contact elements 364 and 366 of selector switch 44, conductors 466 and 462, the contact element 358 of the relay 54, conductors 464, 312 and 348, the winding of the relay 68 and the conductor 341 to the conductor Y. The relay 56 will complete a circuit for the relay 68 when the contact element 364 engages the contact element 466, extending from the conductor X through the conductors 346 and 368, contact elements 364 and v 466, conductors 468 and 4i6, contact element 366 of the relay 56, conductors H2, 312 and 348, the winding of the relay 68, and the conductor 341 to the conductor Y. When the contact element 364 is in the seventh position in engagement with the contact element 4, or is out of engagement with all of the contact elements, the relay 58 will complete a circuit for the relay 68 extending from the conductor X through the conductor 346, the contact element 362 01' the relay 58, the conductor 348, the winding of the relay 68, and the conductor 341 to the conductor Y.

The limit switch 66 which is driven by the carriage motor I2 is actuated to close its associated circuits during the desired portion of each forward motion of the saw carriage. The contact element 4l6 of the limit switch 66 engages its associated'contact elements to complete energizing circuits for successive ones of the relays 46, 48, 56, 52, 54, 56 and 58 upon each forward motion of the carriage. The engagement of the contact element 6 with its associated contact elements completes a circuit for the relay 46 which extends from the conductor X through conductors 346, M8 and 426, the winding of the relay 46, conductors 422 and 424, contact element 426 of the relay 66 in the lower position, a conductor 428, contact element 436 of the relay 62 in the lower position, a conductor 432, contact element 434 of the relay 64 in the lower position, a conductor 436, the contact element 416, a conductor 438, contact element 446 of the relay 68, and conductors 442 and 341 to the conductor Y.

When the relay 46 is energized, its contact element 444 completes an energizing circuit for the relay 66 which will become effective to energize the relay 66 when the contact element 4l6 of the limit switch 66 becomes disengaged from its as- 8 sociated contact elements, and which will then form the energizing circuit for the relays 46 and 66 in a series circuit which extends from the conductor X through the conductors 346, M 8 and 426,

the winding of the relay 46, conductors 422 and 424, contact element 444 oi. the relay 46, conductors 446 and 448, the winding of the relay 66, a

conductor 456, the contact element 452 of the relay 62, conductors 454, 456 and 458, the contact element 466 of the relay 68 and conductors 462 and 341 to the conductor Y.

The energization of the relays 46 and 66 sets up an energizing circuit for the relay 48 which is completed by the contact element 6 of the limit switch 66 upon the next forward reciprocation of the carriage l6 in a circuit which extends from the conductor X through the conductors 346, M8 and 464, the winding of the relay 46, conductors 466 and 468, contact element 416 of the relay 46, conductors 412 and 414, the contact element 426 of the relay 66 in the upper position, conductors 416 and 428, the contact element 436 in the lower position, the conductor 432, the contact element 434 in the lower position, the conductor 436, the contact element 6, the conductor 438, the contact element 446, and conductors 442 and 341 to the conductor Y.

When the relay 48 moves its contact element 418 to closed circuit position, it completes an energizing circuit for the relays 48 and 62 in series circuit relation which will be efiective when the contact element 4l6 of the limit switch 66 disengages its associated contact elements, and which extends from the conductor X through the conductors 346, 418 and 464, the winding of the relay 48, the conductors 466 and 468, the contact element 418, conductors 486 and 482, the winding of the relay 62, a conductor 484, contact element 486 of the relay 64, conductors 488, 456 and 458, the contact element 466, and conductors 462 and 341 to the conductor Y. The energization of the relay 62 will cause its contact element 452 to move to open circuit position to thereby open the energizing circuit for the relays 46 and 66, and these relays will drop.

With the relays 48 and 62 energized, an energizing circuit will be provided for the relay 56 when contact members 6 of the limit switch 66 are again closed extending from the conductor X 50 through the conductors 346, M8 and 496, the

winding of the relay 56, conductors 492 and 484, contact element 496 of the relay 48, conductors 488 and 566, the contact element 436 of the relay 62 in the upper position, conductors 562 and 432, 55 the contact element 434 of the relay 64 in the lower position, the conductor 436, the contact element 6 of the limit switch 66, the conductor 438, the contact element 446, and conductors 442 and 341 to the conductor Y.

The actuation of the relay 56 will close a circuit for energizing the relays 56 and 64 in series circuit relation which will be efiective when the contact element 6 of the limit switch 66 has disengaged its associated contact elements, and 65 which extends from the conductor X through the conductors 346, M8 and 486, the winding of the relay 56, conductors 482 and 464, contact element 564 of the relay 56, conductors 566 and 566, the winding of the relay 64, a conductor 5M, 70 contact element 5l2 of the relay 66, conductors 456 and 458, the contact element 466, and conductors 462 and 341 to the conductor Y. When the relay 64 is thus energized, its contact element 486 will move to open circuit position to thus de- 75 energize the relays 62 and 48.

' 9 The next engagement of the contact element 4| 6 of the limit switch 66 with its associated contact elements will close an energizing circuit for the relay 62 which extends from the conductor X through the conductors 346, M8 and 5, the winding of the relay 52, conductors 5I6 and 5l8, contact element 526 of the relay 56, conductors 522 and 524, the contact element 434 of the relay 64 in the upper position, conductors 526 and 436, the contact element 6, the conductor 436, the contact element 446, and conductors 442 and 341 to conductor Y.

The actuation of the relay 52 will close an energizing circuit for the relays 52 and 66 in series circuit relation which will be efiective when the contact element 6 of the limit switch 66 has become disengaged from its associated contact elements, and which extends from the conductor X through the conductors 346, M8 and 5, the winding of relay 52, conductors 516 and 5l8, contact element 528 of the relay 52, the conductors 446 and 448, the winding of the relay 66, the conductor 456, the contact element 452, conductors 454, 456 and 458, the contact element 466, and the conductors 462 and 341 to conductor Y. The

energization of the relay 66 will cause its contact element 6" to move to open circuit position to thereby deenergize the relays 64 and 56.

When the contact element 416 of the limit switch 66 next engages its associated contact elements, the relay 54 will be energized in a circuit which extends from the conductor X through the conductors 346, M8 and 532, the winding of the relay 54, conductors 534 and 536, contact element 538 of the relay 52, the conductors 412 and 414, the contact element 426. of the relay 66 in the upper position, the conductors 416 and 428, the contact element 436 of the relay 62 in the lower position, the conductor 432, the contact element 434 of the relay 64 in the lower position, the conductor 436, the contact element 416 of the limit switch 66, the conductor 438, the contact element 446 relay 68, and the conductors 442 and 341 to the conductor Y.

When the relay 54 is thus energized, its contact element 358 will be moved to closed circuit position to close the hereinbefore described energizing circuit for the relay 68 extending from the conductor K through the conductors 346 and 368, the contact elements 364 and 398 of selector switch 44, the conductors 466 and 462, the contact element 358 of the relay 54, the conductors 464, 312, and conductor 348, the winding of the relay 68, and the conductor 341 to the conductor Y.

When the relay 68 is energized, a holding circuit for the relay 68 will be established through a contact element 546 of the limit switch 66 which engages its associated contact elements slightly in advance of the engagement of the contact element 6 with its associated contact elements. This holding circuit extends from the conductor K through the conductors 346 and 542, the contact element 546 of the limit switch 66, a conductor 544, contact element 546 of the relay 68, conductors 548 and 348, the winding of the relay 68 and conductor 341 to the conductor Y.

The actuation of the relay 68 will cause its contact element 466 to move to open circuit position to thereby break the holding circuit for the relay 66 and prevent the relay 62 from being energized in series circuit with the relay 54. The relays 46, 48, 56, 52, 54, 56, 58, 66, 62 and 64 will,

therefore, be returned to normal by the actuation 01 the relay 68, and the subsequent deenergization of the relay 68 when the contact elements 6 and 546 oi the limit switch 66 become disengaged from their associated contact elements.

If at any time it is desired to make an emergency cut or a series of emergency cuts, the relay 16 may be energized by the manually operated contact device 12 in a circuit extending from the conductor K through conductors 346 and 556, the contact element of the circuit control device 12, a conductor 554, the winding of the relay 16, and conductors 556 and 341 to the conductor Y. The actuation of the rela 16 will cause its contact elements to provide shunting circuits between the stationary selector contact elements 366, 314, 382, 366, 388 and 466 of the selector switch 44 to thereby cause the relay 68, and consequently the solenoid [8, to be energized during the next forward motion of the carriage l6 after the actuation of the circuit control device 12.

The contact element 558 of the relay 16 will close a shunting circuit for the contact elements 366 and 314 extending from the contact element 366 through the conductor 369, the contact element 558, and conductors 566 and 316 to the contact element 314. A similar shunting circuit for the contact elements 314 and 382 extends from the contact element 314 through conductors 316 and 566, contact element 562, and conductors 564 and 384 to the contact element 382. A circuit extending from the contact element 382 through the conductors 384 and 564, contact element 566, and conductors 568 and 392 forms a shunting circuit for the contact elements 382 and 396, and a circuit extending from the contact element 396 through the conductors 392 and 568, contact element 516, conductors 512, 462 and 466 shunt the contact elements 396 and 398. Similarly, the contact element 514 of the relay 16 closes a shunting circuit between the contact elements 398 and 466 extending from the contact element 388 through the conductors 466, 462 and 512, contact element 514, and conductors 516, M6 and 468 to the contact element 466. The contact element 518 of the relay 16 connects all of these shunted contact elements to the conductor K through the circuit which extends from the conductor 516 through the contact element 518, and conductors 586 and 346 to the conductor X.

When it is desired to make a sample cut of the smallest unit length for the purpose of measuring the cut lengths or for any other purpose, the circuit control device 18 may be actuated, and this circuit control device, in conjunction with a contact element 582 on the limit switch 66, will actuate the relays 14 and 16 to so control the system as to cause the relay 68 and the solenoid [8 to be energized when it is actuated immediately following the next cut made by the saw as determined by the setting of the selector switch 44.

When the circuit control device 18 is actuated, the relay 16will be energized through a circuit which extends from the conductor X through conductors 346 and 564, the contact element of the circuit control device 18, a conductor 586, contact element 588 of the relay 46, conductors 596, 582 and 584, contact element 596 of the relay 14, conductors 598 and 666, the winding of the relay 16, and conductors 662 and 341 to the conductor Y.

The actuation of the relay 16 will cause it to close its own holding circuit extending from the conductor X through conductors 340 and 604, contact element 606 of the relay I6, the conductors 592 and 594, the contact element 596, the conductors 588 and 600, the winding of the relay I6; and the conductors 602 and 341 to the conductor Y. When the contact element 582 next engages its associated contact element, it will close a further holding circuit for the relay I6 which extends from the conductor X through the conductors 340 and 604, the contact element 606, the conductor 592, the contact element 582, the conductors 598 and 600, the winding of the relay I6, and the conductors 602 and 341 to the conductor Y.

When the relay 46 is next energized by the engagement of the contact element MS of the limit switch 66 with its associated contact elements as hereinbefore described, it will close an energizing circuit for the relay I4 which extends from the conductor X through the conductors 340, 604 and 608, contact element 6I0 of the relay I6, conductors H2 and 6, contact element 6I6 oi! the relay 46, a conductor 6I8, the winding of the .relay I4, and conductors 620 and 341 to the conductor Y. The actuation of relay I4 closes its own holding circuit extending from conductor X through the conductors 340, 604 and 608, the contact element 6I0, the conductor 6I2, contact element 622, conductors 624 and 6I8, the winding of the relay I4, and the conductors 620 and 341 to the conductor Y. The actuation of the relay I4 will complete an energizing circuit for the relay 68 which extends from the conductor X through conductors 340 and 626, contact element 628 of the relay I4, conductors 630, 366 and 310, the contact element 350 of the relay 46, the conductors 312 and 348, the winding 01' the relay 68, and the conductor 34'! to the conductor Y, thus causing the actuation of the solenoid l8. The actuation of the relay 68 will break theenergizing circuit of the relay I4 by the movement of the contact element 440 of the rela 68 to open circuit position, but the relay I4 will'be held energized through its holding circuit described hereinbefore.

When the contact element 582 of the limit switch 66 becomes disengaged from its associated contact elements, the holding circuit for the relay I6 hereinbefore described will be broken, the relay I6 will drop out, and the holding circuit of the relay I4 will be opened by the movement of the contact element 6I0 of the relay I6 to open circuit position. The system will thus be returned to normal to continue cutting the normal lengths of pipe which are multiples of the unit cut length, as determined by the setting of the selector switch- 44.

In the operation '01 the device, the motor I2 will operate continuously to cause continuous reciprocation of the carriage I and the saw 4 mounted thereon parallel with the motion of the pipe 6 as it is delivered from the mill 8. The setting of the regulator 24, together with the adjustment of the linkage I 4, will be such as to maintain a speed relation between the mill motor 8 and the carriage motor I2 which will produce a motion of the saw 4 as it is moved in the direction of motion of the pipe 6, which has the same speed as the pipe 6 during a portion of the motion in that direction. If for any reason there is a variation in the relation of the speeds of the motors 0 and I2, the cone pulleys I10 and H6 will be rotated at diflerent speeds, and the differential movement will be transmitted to the varii2 able resistor I66 which will so change the excitation of the exciter I48 as to vary the speed of the motor I2 to restore the proper speed relation between the motor 9 and the motor I2.

It will be seen that with a fixed speed relation between the motor 0 and the motor I2, and with the linkage so adjusted as to cause the saw 4 to have the same speed as the pipe 6 in the forward direction of motion of the saw 4, the saw 4 would cut off equal lengths of pipe if it were actuated upon each forward motion of the carriage I0. If it is desired that this unit length be varied, it is only necessary to close the selector switch 30 in the left-hand position, and selectively actuate the circuit control devices 26 and 20 to cause the motor I6 to change the position of the block H4 and thus vary the effective radius of the lever I08. At the same time, the synchro-tie system will transmit the motion of the motor I6 to the cam I82 which will so vary the setting of the regulator 24 as to establish a new speed relation between the mill motor 9 and the carriage motor I2 which will cause the motor I2 to drive the saw carriage I0 at a greater or less frequency of reciprocation, depending upon the direction in which the radius of the lever I08 has been varied. Thus, for each desired cut length, there will be a definite frequency of reciprocation of the saw carriage I0 with respect to'the speed of the pipe 6, and the eilective length of the lever I08 will have a definite setting which will produce a speed of the saw carriage I0 in the direction of movement of the pipe 6 equal to the speed of the pipe 6.

By the actuation of the manually operable limit switch 32 by the handwheel 264 while the selector switch 30 is in the right-hand position, the handwheel 264 may be turned to the position where the desired cut length is indicated on the dial 266 by the pointer 268. The mechanism will then automatically adjust the speed of the carriage motor I2 and the effective length of the lever I08 as hereinbefore described to give the cut length indicated on the dial 266 by the pointer 268. In the event that minor adjustments of the relative speeds of the mill motor 9 and the saw carriage motor I2 are necessary, the phaseshifting synchro-tie unit 38 may be actuated by the selective actuation of the circuit control devices 40 and 42 to adjust the regulator 24 as desired. A similar adjustment may be made by hand by the actuation of the guide member I85 by the hand lever I86.

'The selector switch 44 may be set with its movable contact element 364 in engagement with any of its associated fixed contact elements to actuate the cam follower operating solenoid I8 to cause the saw 4 to make cuts at any desired regular, successive multiple of the reciprocation of the saw. Thus if the contact element 364 is actuated into engagement with the contact element 366, the saw will make a cut during its forward motion on each reciprocation of the saw carriage l0. If the contact element 364 is actuated into engagement-with the contact element 398, as shown, the system will function as hereinbefore described to cause the saw to make a cut during the forward motion of the saw on every fifth reciprocation of the saw carriage I0. If the contact element 364 is placed into engagement with the contact element 406, or into engagement with the contact element 4 I4, or out of engagement with all of the fixed contact elements of the selector switch 44, the relays 66 and 58 will function in connection with the relays 62 and 64 respectively, to make a cut on every sixth or seventh reciprocation of the saw carriage III in the manner set forth in the detailed description of the operation of the relay 54 in conjunction with the relay 60 to make a cut on every fifth reciprocation.

Thus, if it is desired to cut the pipe into lengths of 32 /2 feet, the movable contact element 364 of the selector switch 44 will be placed into engagement with the fifth contact element 398 as indicated, and the unit cut length may be adjusted by the selectable control devices 26 and 28 or by the manually operable limit switch 32, which may be set by the handwheel 264 to give a unit cut length of 6 feet. Thus, with the unit cut length of 6% feet, and the saw making a cut every fifth receprocation, the length of the cut sections of pipe will be equal to 32 /2 feet. By a similar adjustment, any length of pipe may be cut within the range between the minimum unit out length and seven times the maximum unit cut length. It is to be understood, however, that the selector switch 44 in the relay system is shown as being capable of selecting only seven multiples of the cut length by way of illustration, and that the system may be extended to any desired number of multiples of the cut length by the extension of the relay system following the principles of the system as described in detail hereinbefore.

If emergencies should arise which would make it desirable to cut the pipe as fast as it is fed from the mill, or if for any reason it should be desired to cut the pipe into short lengths without setting the selector switch 44, the emergency cut relay 10 may be actuated by the circuit control device 12 as described hereinbefore, and the minimum. cut length for which the saw is set will be cut continuously so long as the circuit control device is actuated, and when it is released the saw will resume cutting the lengths of pipe which are multiples of the unit length selected by the selector switch 44.

While the saw is operating, it may be desirable periodically to cut a unit length of pipe as a sample to be measured as a check upon the setting of the saw. This may be done by the momentary actuation of the circuit control device 18 which will cause the saw to cut a single unit length following the next regular cut, and then resume the regular lengths of out which are, multiples of the unit length for which the saw is adjusted as fully described hereinbefore.

It is to be understood that the saw which acts upon the pipe 6 is merely illustrative of a device which may be made to act upon the pipe at regular selectable distances along the pipe, and ,that the pipe 6 is merely illustrative of a moving length of material which may be acted upon by such a device. It is to be understood that any device for acting upon any length of material may be operated by the mechanism disclosed herein, and that the mechanism may be such as would act upon any length of material at regular distances along the material in any manner desired. An example of a device that may be so operated is a marking device which may be mounted upon the platform 80 in place of the saw 4, and which may be made to mark a length of material, such as the pipe 6, or a rod or sheet of material, as it is continually fed from a mechanism, such as the mill 8, or any other similar work device.

Thus it will be seen that I have provided a control system for a device for operating upon a moving length of material which shall function to cause the device to automatically act upon the length of material at any desired preselectable, regular, successive lengths along the material,

14 which may be made to act upon the material after any of the regular preselected lengths of materials have been acted upon, and which may be made to act upon the material at shorter intervals than at the preselected lengths in an emergency such as would make it undesirable to continue to act upon the material at the preselected lengths.

In compliance with the requirements of the patent statutes, I have shown and described herein a. preferred embodiment of my invention. It is to be understood, however, that the invention is not limited to the precise construction shown and described herein, but is capable of modification by one skilled in the art, the embodiment shown herein being merely illustrative of the principles of my invention.

I claim as my invention:

1. A control system for an electro-responsive control means operable to effect an operation comprising, an energizing circuit for the electroresponsive means, a plurality of electrical control circuits, selectively-operable switch means having contact members individually connected in said control circuits for partially closing any desired one of said circuits, a plurality of counting relays each associated with a separate one of said circuits and having contact members individually connected therein for completing the selected circuit when the counting relay associated with the selected circuit is actuated, circuit means including a limit switch adapted to be actuated through a series of identical cycles and having contact members which are closed during a portion of each cycle only for effecting the successive operation of said counting relays, and relay means connected to be energized in response to the completion of the selected control circuit and having contact members connected to close the energizing circuit of the electro-responsive control means, said relay means having normally closed contact members connected in said circuit means including the limit switch which function when said relay means is operated to deenergize any of the counting relays which have been energized to render them effective to repeat the counting operation to provide. another op eration of the relay means.

2. A control system for an electro-responsive control means operable to effect a predetermined operation comprising, an energizing circuit for said electro-responsive control means, a plurality of electrical control circuits, selectively-operable switch means having a plurality of contact members individually connected in said control circuits for selecting and partially closing any desired one of said control circuits, a plurality of counting relays each associated with a separate one of said control circuits and having contact members individually connected in said control circuits for completing the selected control circuit when the particular counting relay associated with the selected control circuit is actuated, circuit means including a limit switch adapted to be actuated through a series of identical cycles and having contact members which are 15 able at will to partially close all of said plurality of control circuits independently of the selectively operable switch means to thereby cause the said relay means to be operated to energize the electro-responsive means in response to the operation of the next succeeding counting relay after the actuation of said manually actuable switch means.

3. In a control system for an electro-responsive control means for effecting a. predetermined operation comprising, an energizing circuit for said electro-responsive control means, a plurality of electrical control circuits, selector switch means having a plurality of contact members individually connecting in said control circuits for selecting and partially closing any desired one of said control circuits, a chain of counting relays each associated with a separate one of said control circuits and having contact members individually connected in said control circuits for finally completing the selected control circuit when the counting relay associated with the selected control circuit is actuated, circuit means including a limit switch adapted to be actuated through a series of identical cycles and having contact members which are closed for a portion of each cycle only for eflecting the operation of the counting relays successively, relay means connected to be energized in response to the completion of any one of the selected control circuits for closing the energizing circuit of the electro-responsive means, said relay means having normally closed contact members connected in said circuit means and being effective when energized and operated to deenergize any of said counting relays which have been energized to render the counting relays and their associated circuit means eiIectlve to repeat the counting operation; and manual switch means operable at will and having contact members connected in parallel with the contact members of the selector switch means connected in the control circuit individual to the first counting relay for partially-closing said control circuit independently of the selector switch means to effect the operation of the first counting relay of the chain immediately following the operation of the last relay of the chain as determined by the setting of the selector switch means which operates to complete the selected control circuit, thereby to complete the control circuit associated with said first counting relay and again effect the operation of the relay means.

4. A control system for an electro-responsive means operable to effect a predetermined operation comprising, an energizing circuit for said electro-responsive means, a plurality of electrical control circuits, selectively-operable switch means having a plurality of contact members individually connected in said control circuits for partially closing any desired one of said control circuits, a chain of counting relays each associated with a separate one of said control circuits and having contact members individually connected in said control circuits :[or finally completing the selected control circuit when the counting relay associated with the selected control circuit is actuated, circuit means including a 16 for closing the energizing circuit of the electroresponsive control means, said control relay having normally closed contact members connected in said circuit means and being efiective when so operated to deenerglze any of said counting relays which have been energized to render the counting relays and their associated circuit means efiective to repeat the counting operation, a first manually operable switch means having contact members individually connected in parallel with the contact members of -.the selectively operable switch means and operable at will for partially closing all of said control circuits independently of the selectively operable switch means to thereby effect the Operation of the control relay in response to the operation of next succeeding counting relay after said first manually operable switch means is actuated, and a second manually operable switch means operable at will and having contact members connected in parallel with the contact members of the selector switch means connected in the control circuit individual to the first counting relay for partially closing the control circuit individual to the first counting of the chain independently of the selectively operable switch means to thereby effect the operation of the control relay at the beginning of the next succeeding cycle of operation of the counting relays following the completion of the cycle in which said second manually-operable switch means is actuated.

5. In combination, a control relay having an operating winding, a plurality of normally open control circuits connected in parallel to said operating winding for energizing said relay, selector switch means having contact members individually connected in said control circuits operable to select and partially close any desired one of the control circuits, a chain of counting relays each relay of the chain being individual to one of the control circuits and having contact members connected therein and operable to finally complete its associated circuit after such circuit limit switch adapted to be driven through a series has been selected and partiallyclosed by said selector switch means, circuit means including a limit switch adapted to be successively operated through identical operating cycles and having contact members which are closed for a portion of each cycle only for controlling the energization of the counting relays to effect a sequential operation thereof, and additional circuit means including manually operable switch means operable at will and effective when operated during any cycle of operation of the limit switch to partially close all of said control circuits to render the next counting relay thereafter operated eftective to operate the control relay regardless of the setting of the selector switch means.

6. In combination, a control relay having an operating winding, a plurality of normally open control circuits connected in parallel to said operating winding for energizing said relay, selector switch means having a plurality of operating positions and contact members individually connected in said control circuits operable to select and partially close any desired one of the control circuits, a chain of counting relays each relay being individual to a' control circuit and having contact members connected therein and operable to complete the selected and partially closed control circuit when the relay individual to that circuit is actuated, circuit means including a limit switch adapted to be operated through a series of identical cycles and having contact members closed during a portion of each cycle only for controlling the energization of the counting relays to efiect their sequential operation in accordance with the operating cycles of the limit switch, and additional circuit means including manually operable switch means operable at will and having contact members connected to partially complete the control circuit individual to the first counting relay of the chain independently of the selector switch means to effect the operation of the control relay in response to the operation of said first counting relay regardless of the setting of the selector switch means.

7. In combination, a control relay having an operating winding, a plurality of normally open electrical circuits connected in parallel to said operating winding for energizing said relay, se-

lectively operable switch means having contact members individually connected in said electrical circuits and operable to select any one of said circuits by effecting a partial closure thereof, a plurality of counting relays each associated with a separate one of said circuits and each having contact members individually connected therein and operable to complete the selected circuit when the counting relay associated with that circuit is actuated, and circuit means including a control switch operable through successive operating cycles and having contact members closed during a portion of each cycle only for controlling the energization of said counting relays to effect the operation of successive ones of said counting relays during each cycle of operation of the cone trol switch, whereby the control relay is operated in response to the operation of the particular counting relay associated with the selected electrical circuit.

8. In combination, a control relay having an operating winding, an energizing circuit connected to the operating winding of the control relay having a plurality of parallel branch portions, a manually operable selector switch having a contact element individual to and connected in each of said branch portions for preselecting by partially completing the particular branch portion to be finally completed to effect the operation of the control relay, a plurality of counting relays each individual to a branch portion and having contact members individually connected therein and operable to complete the energizing circuit of the control relay, circuit means interconnecting said relays for sequential operation, and switch means adapted to be operated through successive cycles and having contact members closed during a portion of each cycle only connected in said circuit means for controlling the energization of said circuit means, thereby to eifect the operation of the control relay in response to the operation of a particular one of the counting relays individual to the branch portion partially completed by the selector switch.

9. In combination, a control relay having an operating winding, an energizing circuit connected to the operating winding and having a plurality of parallel branches, a chain of counting relays for controlling the operation of the control relay, said relays being individual to each branch portion of the energizing circuit and having contact members connected therein, a selector switch having a plurality of operating positions and contact members individually connected in said branches for determining which one of the counting relays of the chain is effective to close the energizing circuit and effect the operation of the control relay, circuit means interconnecting the counting relays to eilect a sequential operation thereof in response to suecesslve energizations of the circuit means, and switch means having contact members connected in said circuit means operable through identical successive cycles for efiecting the successive energization of said circuit means.

10. In combination, a control relay having an operating winding, a plurality of energizing circuits connected to the operating winding, a selector switch having an operating position individual to each of said operating circuits and contact members individually connected therein for preselecting the particular circuit to be energized by partially closing the circuit, a plurality of counting relays each individual to one of said operating circuits and having contact members connected therein operable to complete the particular circuit selected by the selector switch, circult means interconnecting said counting relays for sequential operation, and switch means having contact members connected with said circuit means and operable through successive cycles of operation for controlling the energization and operation of the counting relays, thereby to eilect the operation of the control relay in response to the operation of any one of the counting relays as determined by the setting of the selector switch.

11. In combination, a control relay having an operating coil, a selector switch operable to a plurality of diiierent operating positions and having contact members which are individually closed in eachposition, switch means adapted to be driven through successive identical cycles and having contact members which are closed during a portion of each cycle, a chain 0'! counting relays, said counting relays having operating coils and associated contact members, circuit means interconnecting the contact members of said switch means and the operating coils of the counting relays for operating the relays of the chain in sequence in accordance with the cyclic operation of the switch means, and additional circuit means interconnecting the contact members of the selector switch with the contact members of the counting relays and operating coil of the control relay for selectively rendering said counting relays efiective to operate the control relay during one of the operating cycles of the switch means as determined by the setting of the selector switch.

12. In an electrical control system for efiecting the operation of an electro-responsive device comprising, an energizing circuit for the electroresponsive device, a plurality of electrical control circuits, selectively operable switch means operable to a plurality of diiierent control positions and having contact members which are closed at each position for partially completing any desired one of said circuits at a time, a plurality of counting relays each individually associated with one of said control circuits and the control positions of said switch means, said counting relays having contact members individually connected in said control circuits and being operable to partially complete their individual control circuits, whereby the particular control circuit that is finally completed is dependent upon the closure of the particular counting relay individual to the control position to which said switch means is operated, circuit means including a limit switch adapted to be operated through successive identical cycles and having contact members which are closed during a portion of each cycle only for effecting the sequential operation of the counting relays, and

19 a control relay having an operating winding connected to said control circuits to be operated in response to the said final completion of any one of said control circuits for closing the energizing circuit of the electro-responsive device.

13. An electrical system for use in controlling the operation 01' an electro-responsive device comprising, an energizing circuit for the electroresponsive device, a control relay having contact members connected to close said circuit to effect operation of the electro-responsive device, an energizing circuit connected to operate the control relay, said circuit having a plurality of parallel branch portions, a selector switch operable to a plurality of different control positions and having contact members individually connected in each branch portion for partially completing said circuit, a plurality of counting relays associated with the selector switch and each having contact members in each branch portion and eflective depending upon the position of the selector switch to complete the energizing circuit for the control relay, and circuit means including a plurality ofsequence relays and a limit switch adapted to be operated through successive identical cycles and having contact members which are closed during a portion of each cycle only for efiecting the sequential operation of the counting relays, thereby to eifect the operation of the control relay in a particular operating cycle of the limit switch asdetermined by the position of the selector switch.

14. An electrical system for use in controlling the operation of an electro-responsive device comprising, an energizing circuit for the electroresponsive device, a control relay having contact members connected to close said circuit to effect the energization of the electro-responsive device, an energizing circuit connected to operate the control relay, said circuit having a plurality of parallel branch portions, a manually actuated selector switch operable to a plurality of different control positions and having contact members connected in each branch portion for partially completing said circuit, a plurality of countin relays individually associated with the control positions of the selector switch and each havin contact members connected in each branch portion operable depending upon the position to which the selector switch is operated to complete the energizing circuit ior the control relay, and circuit means including a plurality of sequence relays and a limit switch adapted to be operated through successive identical cycles and having contact members which are closed during a portion of each cycle only for effecting the sequential operation of the counting relays to effect the operation oi! the control relay in a particular cycle of the limit switch as determined by the position of the selector switch, thereby to provide for effecting successive operations of the electro-responsive device.

.15. An electrical system for use in controlling the operation of an electro-responsive device comprising, an energizing circuit for the electroresponsive device, a control relay having contact members connected to close said circuit to effect energization of the electro-responsive device, an energizing circuit for the control relay, relay means operable in sequence for partially closing the energizing circuit of the control relay, said relay means comprising a plurality of counting relays each having contact members connected to partially close said circuit, circuit means including a limit switch adapted to be driven through successive identical operating cycles and haying contact members which are closed during a portion of each cycle only for eflecting a sequential operation of the counting relays whereby said relays function to partially complete an energizing circuit for the control relay each time the limit switch is operated through its operating cycle, and a selector switch operable to be set in difierent positions and having contact members connected in the energizing circuit of the control relay cooperative with the counting relays to finally complete the energizing circuit for the control relay in any operating cycle of the limit switch as determined by the position of the selector switch, thereby to provide for effecting the operation of the electro-responsive device depending upon the particular operating cycle in which the control relay is energized.

16. An electrical system for use in controlling the operation of an electro-responsive device, comprising, an energizing circuit for the electroresponsive device, a control relay having contact members connected to close said circuit to control the energization of the electro-responsive means, an energizing circuit connected to the operating winding of said control relay, a plurality of relays including a chain of counting relays having contact members connected in the energizing circuit of the control relay in parallel circuit relation and operable in sequence through a predetermined cycle to partially complete the energizing circuit for the control relay each time one of the counting relays is operated to its closed position, circuit means including switch means adapted to be driven through a series of identical cycles and having contact members which are closed during a portion of each cycle only for eiiecting the sequential operation of the counting relays at a predetermined point in each cycle of operation or said switch means, and a manually-operable selector switch operable to different control positions and having contact members connected indvidually in series circuit relation with the contact members of said counting relays to effect completion or any one of said partially established energizing circuits for the control relay depending upon the setting of the selector switch, whereby the control relay is energized at said predetermined point in the operating cycle of the switch means in the particular cycle as determined by the setting of the selector switch.

WILLARD G. COOK.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 1,037,675 Simpson Sept. 3, 1912 1,549,429 Bartlett Aug. 11, 1925 1,647,337 Bradshaw Nov. 1, 1927 1,668,777 Martersteck May 8, 1928 1,684,617 Biggert Sept. 18, 1928 1,894,815 Biggert Jan. 17, 1933 1,946,926 Barton Feb. 13, 1934 1,996,617 Hahn Apr. 2, 1935 2,023,243 Rhea Dec. 3, 1935 2,079,974 Traut May 11, 1937 2,144,308 Hallden Jan. 17, 1939 

